Why bending iron nails causes it to corrode faster?

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SUMMARY

Bending iron nails increases their corrosion rate primarily due to the stress points created during deformation. These stress points act as anodes, facilitating the oxidation of iron, as described by the half-reaction Fe→Fe2++2e-. The reduction half-reaction involves oxygen and water, leading to the formation of hydroxide ions. Observations indicate that corrosion is exacerbated when the protective zinc coating is damaged, confirming the role of surface integrity in corrosion resistance.

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  • Understanding of electrochemical reactions, specifically oxidation and reduction half-reactions.
  • Familiarity with corrosion mechanisms, particularly cold worked corrosion.
  • Knowledge of protective coatings, such as zinc galvanization.
  • Basic principles of materials science related to stress and atomic structure.
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Homework Statement


When bending iron nails, the corrosion rate increases. Does anyone knows, why is that?


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The Attempt at a Solution

 
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I've bent over many nails in a salt water environment, some of them I've been able to observe for as long as 40 years. I've never noticed an increased corrosion rate, except when I damaged the zinc coating.
 
Oxidation occurs most easily at points of stress in a metal. This point becomes an anode for the reaction of Iron with Oxygen, yielding the half-reaction of Fe→Fe2++2e-. The reduction half-reaction, therefore, is O2+2H2O+4e-→4OH-.

There are some nice illustrations of this on pages 816-817 of Chemistry, 9th Edition by Whitten, Davis, Peck, & Stanley.

The reason for this increased oxidation at the points of stress is that the atomic structure allows the process to occur more readily. The section on Cold Worked Corrosion at http://www.efunda.com/materials/corrosion/corrosion_types.cfm has some minimal information on this, and you can always look it up in more depth if you're interested/this is the information that you need.
 
Thanks for your help, guys :D
 

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